CN203780397U - Dry particle and powder self discharging tank car - Google Patents

Abstract

The utility model relates to a dry particle and powder self discharging tank car. The dry particle and powder self discharging tank car is characterized in that a slag inlet is formed in the upper part of a carriage; a telescopic sleeve A is arranged in the slag inlet; a discharging port is formed in the lower end of the rear part of the carriage; a closed gate plate B is arranged outside the discharging port; the closed gate plate B is driven by a driving device C; a car body is provided with a deduster; a telescopic sleeve B is arranged at the inlet of the deduster; the telescopic sleeve B is driven by a driving device D; the carriage is provided with an air sucking port. The dry particle and powder self discharging tank car has the beneficial effects that the problem of environment pollution during conveying is avoided by the full closed carriage; secondly, the tank car is provided with the deduster structure, a charging interface is provided with a sealing device, no dust is exhausted during loading and the sanitation of a loading site is ensured; in addition, water resource is prevented from being wasted as the mode that coal slag is discharged in a wet mode is eliminated, and the emission of toxic and harmful gas, manpower consumption and needed energy consumption for drying the wet coal slag are avoided. The dry particle and powder self discharging tank car belongs to an optimal scheme for loading, unloading and transporting the dryly discharged coal slag in the low carbon economy revolution age.

Description

Dry type particle, powder dumping tanker

Technical field

The utility model relates to a kind of handling equipment, is applicable to dry particle that temperature is high or loading, unloading, the transportation of powder.Be particularly useful for the dry particle in thermoelectricity, chemical industry, building materials, mine, loading, unloading and the transportation of powder.

Background technology

Recycling economy is the new trend of environmental protection development, and energy-saving and emission-reduction are targets that enterprise is pursued, and are the roads of Sustainable Development of Enterprises.

In thermoelectricity, chemical industry, have cinder after a large amount of burnings to need outer row, and cement industry need a large amount of cinders to make fusion material, so, after cement with good conditionsi producer is transported to production site by cinder, carry out the production of cement.

The transporting mode of cinder is: the cinder in power plant's ash bucket (particulate material) directly drops in the loading space of self-unloading motor-tilter, due to the truck structure that is open type, topple over transportation in certainly will have a large amount of dusts and permeate in air, environment is caused to great pollution.

In order to overcome the problems referred to above, present stage, general way was: the shower water equipment that arranges in ash bucket, squirts the cinder in it, to reduce the airborne dust of down-stream.But cause so again a new problem: moistening cinder is behind cement mill, dried again and could be used, so not only increase equipment investment, waste fuel energy, also can in drying course, produce a large amount of toxic and harmfuls, caused secondary pollution.

Summary of the invention

The purpose of this utility model is to provide a kind ofly can avoid airborne dust, save the energy, reduces the dry type particle, powder dumping tanker of discharge to make up the deficiency of prior art.

The utility model is that the technical scheme that realizes object is: dry type particle, powder dumping tanker, comprise car body, and it is characterized in that: on car body, have enclosed compartment;

Slag inlet is arranged at top, compartment, has telescopic tube A in slag inlet, and telescopic tube A relies on actuating device A to drive; In slag inlet, have closing flap A, closing flap A relies on actuating device B to drive;

There is slag eye lower end, rear portion, compartment, and there is closing flap B at discharge port place, and closing flap B relies on actuating device C to drive;

On car body, be provided with dust exhaustor, there is telescopic tube B in dust exhaustor inflow point, and telescopic tube B relies on actuating device D to drive; On compartment, be provided with suction opeing, have closing flap C in suction opeing, closing flap C relies on actuating device E to drive; After stretching out, telescopic tube B just can entangle air discharge port.

Optimize: described actuating device A, actuating device B, actuating device C, actuating device D, actuating device E are all fluid pressure type actuating devices.

Optimize: described dust exhaustor bottom has cinder to reclaim interface.

Optimize, in telescopic tube A, telescopic tube B, all have seal ring.

The beneficial effects of the utility model are: problem of environmental pollution when transportation has been avoided in first all-sealed compartment; Secondly, the utility model carries dust exhaustor structure, and charging interface has sealing arrangement, when entrucking, without dust emission, has guaranteed the health in entrucking place; In addition, banned wet row's cinder waste water resource, eradicated wet cinder and dried the energy, manpower consumption and the toxic and harmful discharge needing.The loading, unloading of dry row's cinder and the optimal selection scheme of transportation in current low-carbon economy revolution epoch.The most important thing is: without electric power factory equipment being had to any transformation, this is to have very large realistic meaning in practical operation.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the right elevation of Fig. 1;

Fig. 3 is the birds-eye view of Fig. 1;

Fig. 4 is the structural representation of slag inlet;

Fig. 5 is dust exhaustor makeup of the imports schematic diagram;

Fig. 6 is entrucking schematic diagram;

Fig. 7 is the schematic diagram of unloading.

The specific embodiment

Embodiment:

In the drawings, 1 is car body, and 2 is wheel, and 3 is that operator's compartment, 4 is that enclosed compartment, 5 is self-unloading jacking cylinder.6 is dust exhaustor, and 7 is slag inlet, and 17 is wind big gun, 9 is that hydraulic ram A, 12 is that closing flap A, 100 is hydraulic ram B, and 19 is telescopic tube A, the 20th, and seal ring, the 13rd, hydraulic ram E, the 14th, the closing flap C of suction opeing 101, the 15th, hydraulic ram C, the 16th, discharge port, the 11st, induced draft fan, the 8th, exhausting assembly, the 18th, coal ash reclaims interface, the 10th, hydraulic ram D; The 102nd, telescopic tube B, the 103rd, closing flap B.

During use: car body 1 is moved to suitable position, make slag inlet 7 aim at the position of the discharge port 25 in cinder storehouse 28, primer fluid compressing cylinder A9, rises telescopic tube A19, until entangle discharge port 25, seal ring 20 plays the effect of auxiliary seal.

Meanwhile, primer fluid compressing cylinder D10, moves right telescopic tube B102, until entangle suction opeing 101, seal ring 20 plays the effect of auxiliary seal.

Restart hydraulic ram B100, closing flap A12 is pulled out, opened slag inlet 7.

Restart hydraulic ram E13, the closing flap C14 of leaving behind, has opened suction opeing 101.

Open induced draft fan 11.

Open cinder storehouse lock 26, cinder will drop in compartment 4, and the air of discharge enters dust exhaustor 6 by suction opeing 101, and the air after purification is discharged in environment again.

Whole process is in closed state, and clean and tidy health, does not have dust to permeate in air.The original spray equipment 27 of power plant is at all without use.

The application target of wind big gun 17 is material to be blown flatly as far as possible, reaches the objects of many chargings.

After charging process finishes, aforesaid parts negative actuation, final, closing flap A12 and closing flap C14 reset, and have closed slag inlet 7 and suction opeing 101.

Then transport, compartment 4, in full closeding state, does not have the leakage of cinder and dust.

After destination, primer fluid compressing cylinder C15, opens closing flap B103, opens discharge port 16, then utilizes the original hoisting system of vehicle, and compartment 4 is risen and receded, and pours out cinder to slag bucket 29, and material enters cinder bank 31 through gig 30.

Finally open coal ash and reclaim interface 18 and connect on-the-spot ash returning tube, the coal ash of draining, plays the effect of deashing.

Cinder in cinder bank 31 is done entirely, there is no moisture, can directly use, without baking operation.

Claims (4)

1. dry type particle, powder dumping tanker, comprise car body, it is characterized in that: on car body, there is enclosed compartment,

Slag inlet is arranged at top, compartment, has telescopic tube A in slag inlet, and telescopic tube A relies on actuating device A to drive; In slag inlet, have closing flap A, closing flap A relies on actuating device B to drive;

There is discharge port lower end, rear portion, compartment, and there is closing flap B at discharge port place, and closing flap B relies on actuating device C to drive;

On car body, be provided with dust exhaustor, there is telescopic tube B in dust exhaustor inflow point, and telescopic tube B relies on actuating device D to drive; On compartment, be provided with suction opeing, have closing flap C in suction opeing, closing flap C relies on actuating device E to drive; After stretching out, telescopic tube B just can entangle air discharge port.

2. dry type particle as claimed in claim 1, powder dumping tanker, is characterized in that: described actuating device A, actuating device B, actuating device C, actuating device D, actuating device E are all fluid pressure type actuating devices.

3. dry type particle as claimed in claim 1 or 2, powder dumping tanker, is characterized in that: described dust exhaustor bottom has cinder to reclaim interface.

4. dry type particle as claimed in claim 1 or 2, powder dumping tanker, is characterized in that: in telescopic tube A, telescopic tube B, all have seal ring.